#include <OptOSensor2D.h>
Public Member Functions | |
void | constructSolidShape () |
ALIdouble * | convertPointToLocalCoordinates (const CLHEP::Hep3Vector &point) |
virtual void | defaultBehaviour (LightRay &lightray, Measurement &meas) |
virtual void | detailedTraversesLightRay (LightRay &lightray) |
virtual void | fastTraversesLightRay (LightRay &lightray) |
virtual void | fillExtraEntry (std::vector< ALIstring > &wordlist) |
virtual void | makeMeasurement (LightRay &lightray, Measurement &meas) |
OptOSensor2D () | |
OptOSensor2D (OpticalObject *parent, const ALIstring &type, const ALIstring &name, const ALIbool copy_data) | |
~OptOSensor2D () | |
Private Attributes | |
DeviationsFromFileSensor2D * | deviFromFile |
ALIbool | fdevi_from_file |
Definition at line 19 of file OptOSensor2D.h.
OptOSensor2D::OptOSensor2D | ( | ) | [inline] |
Definition at line 24 of file OptOSensor2D.h.
{ };
OptOSensor2D::OptOSensor2D | ( | OpticalObject * | parent, |
const ALIstring & | type, | ||
const ALIstring & | name, | ||
const ALIbool | copy_data | ||
) | [inline] |
Definition at line 25 of file OptOSensor2D.h.
: OpticalObject( parent, type, name, copy_data), fdevi_from_file(0){ };
OptOSensor2D::~OptOSensor2D | ( | ) | [inline] |
Definition at line 27 of file OptOSensor2D.h.
{ };
void OptOSensor2D::constructSolidShape | ( | ) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 440 of file OptOSensor2D.cc.
References GlobalOptionMgr::getGlobalOptionValue(), GlobalOptionMgr::getInstance(), and m.
{ ALIdouble go; GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance(); gomgr->getGlobalOptionValue("VisScale", go ); theSolidShape = new CocoaSolidShapeBox( "Box", go*4.*cm/m, go*4.*cm/m, go*1.*cm/m ); //COCOA internal units are meters }
ALIdouble * OptOSensor2D::convertPointToLocalCoordinates | ( | const CLHEP::Hep3Vector & | point | ) |
Definition at line 385 of file OptOSensor2D.cc.
References gather_cfg::cout, ALIUtils::debug, ALIUtils::dump3v(), and ALIUtils::dumprm().
{ ALIdouble* interslc = new ALIdouble[2]; //----- X value CLHEP::HepRotation rmt = rmGlob(); CLHEP::Hep3Vector XAxism(1.,0.,0.); XAxism*=rmt; if( ALIUtils::debug >= 5) ALIUtils::dump3v( (this)->centreGlob(), "centre glob sensor2D" ); if( ALIUtils::debug >= 5) ALIUtils::dumprm( rmt, "rotation matrix sensor2D" ); //t ALIUtils::dump3v(point - (this)->centreGlob() , "inters - (this)->centreGlob()"); if( ALIUtils::debug >= 5) ALIUtils::dump3v(XAxism , "XAxism"); interslc[0] = (point - (this)->centreGlob() ) * XAxism; //----- Y value CLHEP::Hep3Vector YAxism(0.,1.,0.); YAxism*=rmt; if( ALIUtils::debug >= 5) ALIUtils::dump3v(YAxism , "YAxism"); interslc[1] = (point - (this)->centreGlob() ) * YAxism; if( ALIUtils::debug >= 5 ) { std::cout << " intersection in local coordinates: X= " << interslc[0] << " Y= " << interslc[1] << std::endl; ALIUtils::dump3v( point - (this)->centreGlob() , " inters - centre " ); } return interslc; }
void OptOSensor2D::defaultBehaviour | ( | LightRay & | lightray, |
Measurement & | meas | ||
) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 33 of file OptOSensor2D.cc.
{ makeMeasurement( lightray, meas); }
void OptOSensor2D::detailedTraversesLightRay | ( | LightRay & | lightray | ) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 238 of file OptOSensor2D.cc.
References DeviationsFromFileSensor2D::apply(), dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, ALIUtils::debug, LightRay::dumpData(), LightRay::intersect(), mergeVDriftHistosByStation::name, LightRay::point(), LightRay::refract(), DeviationsFromFileSensor2D::setApply(), LightRay::setPoint(), and create_public_lumi_plots::width.
{ if (ALIUtils::debug >= 4) std::cout << "%%% LR: DETAILED TRAVERSES SENSOR2D " << name() << std::endl; if( DeviationsFromFileSensor2D::apply() && fdevi_from_file) { DeviationsFromFileSensor2D::setApply( 0 ); //- std::cout << "fdeviFromFile" << fdevi_from_file << std::endl; if(ALIUtils::debug >= 0 )std::cerr << "!!WARNING: sensor " << name() << " has read deviation from file and it will not be taken into account. Please use FAST TRAVERSES" << deviFromFile << std::endl; } //---------- If width is 0, just keep the intersection point ALIdouble width = findExtraEntryValue("width"); if( width == 0 ) { //---------- Get intersection CLHEP::Hep3Vector ZAxis(0.,0,1.); CLHEP::HepRotation rmt = rmGlob(); ZAxis = rmt * ZAxis; lightray.intersect( ALIPlane(centreGlob(), ZAxis) ); CLHEP::Hep3Vector inters = lightray.point(); lightray.setPoint( inters ); if (ALIUtils::debug >= 2) { lightray.dumpData("LightRay Sensor2D traversed: "); } return; } if (ALIUtils::debug >= 4) std::cout << std::endl << "$$$ LR: REFRACTION IN FORWARD PLATE " << std::endl; //---------- Get forward plate ALIPlane plate = getPlate(1, 1); //---------- Refract while entering object ALIdouble refra_ind1 = 1.; ALIdouble refra_ind2 = findExtraEntryValueMustExist("refra_ind"); lightray.refract( plate, refra_ind1, refra_ind2 ); if (ALIUtils::debug >= 4) std::cout << std::endl << "$$$ LR: REFRACTION IN BACKWARD PLATE " << std::endl; //---------- Get backward plate plate = getPlate(0, 1); //---------- Refract while exiting splitter lightray.refract( plate, refra_ind2, refra_ind1 ); CLHEP::Hep3Vector inters = lightray.point(); lightray.setPoint( inters ); if (ALIUtils::debug >= 4) { lightray.dumpData("LightRay Sensor2D traversed: "); } }
void OptOSensor2D::fastTraversesLightRay | ( | LightRay & | lightray | ) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 119 of file OptOSensor2D.cc.
References DeviationsFromFileSensor2D::apply(), dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, debug, ALIUtils::debug, LightRay::dumpData(), cuy::ii, LightRay::intersect(), ALIUtils::LengthValueDimensionFactor(), Model::MeasurementList(), Entry::name(), mergeVDriftHistosByStation::name, LightRay::point(), LightRay::setPoint(), Entry::setValue(), LightRay::shiftAndDeviateWhileTraversing(), Measurement::value(), and Entry::value().
{ verbose = ALIUtils::debug; if (ALIUtils::debug >= 2) std::cout << "LR: FAST TRAVERSES SENSOR2D " << name() << std::endl; //---------- Shift and Deviate //---------- Get intersection CLHEP::Hep3Vector ZAxis(0.,0,1.); CLHEP::HepRotation rmt = rmGlob(); ZAxis = rmt * ZAxis; lightray.intersect( ALIPlane(centreGlob(), ZAxis) ); CLHEP::Hep3Vector inters = lightray.point(); ALIdouble deviX, deviY, devi; // if deviationsFromFile are applied and this sensors has them get the deviations that corresponds to the intersection point. // Set this deviation as original one, as it will not be changed for derivatives if( DeviationsFromFileSensor2D::apply() && fdevi_from_file) { //- std::cout << " DeviationsFromFileSensor2D::apply() " << DeviationsFromFileSensor2D::apply() << std::endl; if(ALIUtils::debug >= 4) { std::cout << "fdeviFromFile" << fdevi_from_file << std::endl; //- std::cout << "deviFromFile" << deviFromFile << std::endl; } //--------- get measurement value of the current sensor std::vector< Measurement* >& measv = Model::MeasurementList(); unsigned int ii; Measurement *omeas = 0; for( ii = 0; ii < measv.size(); ii++ ) { //- std::cout << " sensor2d finding meas " << measv[ii]->sensorName() << " " << name() << std::endl; if( measv[ii]->sensorName() == name() ) { omeas = measv[ii]; break; } } if( omeas == 0 ) { std::cerr << "!!!EXITING OptOSensor2D::fastTraversesLightRay: meas " << name() << " not found " << std::endl; } ALIdouble interslcx = omeas->value( 0 ); ALIdouble interslcy = omeas->value( 1 ); if(ALIUtils::debug >= 5) std::cout << " interslcx " << interslcx << " interslcy " << interslcy << std::endl; //----- transform in milimeters and positive //mum interslcx = interslcx*1.E6 + 10000.; //mum interslcy = interslcy*1.E6 + 10000.; ALIdouble df = ALIUtils::LengthValueDimensionFactor(); interslcx = interslcx/df + 0.010/df; interslcy = interslcy/df + 0.010/df; if(ALIUtils::debug >= 5) std::cout << " interslcx " << interslcx << " interslcy " << interslcy << std::endl; //---------- Get deviations from file (they are in microrads) std::pair< ALIdouble, ALIdouble> devis = deviFromFile->getDevis( interslcx, interslcy ); deviX = devis.second; deviY = -devis.first; // deviX = devis.first; // deviY = devis.second; //o deviX = *((deviFromFile->deviationsInX()).begin() + pointY*deviFromFile->nPoints() + pointX) * 1.E-6;; //o deviY = *((deviFromFile->deviationsInY().begin()) + pointY*deviFromFile->nPoints() + pointX) * 1.E-6; //---------- Set this deviation value as original one, as it will not be changed for derivatives (change the entry and also the ExtraEntryValueOriginalList()) ALIuint entryNo = extraEntryNo( "deviX" ); if( verbose >= 3 ) std::cout << "entrynox" << entryNo << name() << verbose << std::endl; Entry* entryDeviX = *(ExtraEntryList().begin()+entryNo); entryDeviX->setValue( deviX ); //- std::vector< ALIdouble >::const_iterator eevolite = static_cast<std::vector< ALIdouble >::iterator>( ExtraEntryValueOriginalList().begin() ); std::vector< ALIdouble > eevil = ExtraEntryValueOriginalList(); //- std::vector< ALIdouble >::const_iterator eevolite = ( ExtraEntryValueOriginalList().begin() ); std::vector< ALIdouble >::iterator eevolite = eevil.begin(); *(eevolite+entryNo) = deviX; if( verbose >= 3 ) std::cout<< " entryDeviX name " << entryDeviX->name() << entryDeviX->value() << std::endl; entryNo = extraEntryNo( "deviY" ); Entry* entryDeviY = *(ExtraEntryList().begin()+entryNo); //- std::cout << "entrynoy" << entryNo << name() << std::endl; entryDeviY->setValue( deviY ); *(eevolite+entryNo) = deviY; //- std::cout<< entryDeviY << " entryDeviY name " << entryDeviY->name() << entryDeviY->value() << std::endl; } else { deviX = findExtraEntryValue("deviX"); deviY = findExtraEntryValue("deviY"); //??? why previous does not work?? if( fdevi_from_file ) { if( ALIUtils::debug >= 5) std::cout << "fdeviFromFile" << fdevi_from_file << std::endl; ALIuint entryNo = extraEntryNo( "deviX" ); Entry* entryDeviX = *(ExtraEntryList().begin()+entryNo); if( verbose >= 3 ) std::cout<< entryDeviX << " entryDeviX name " << entryDeviX->name() << entryDeviX->value() << std::endl; deviX = entryDeviX->value(); entryNo = extraEntryNo( "deviY" ); Entry* entryDeviY = *(ExtraEntryList().begin()+entryNo); if( verbose >= 3 ) std::cout<< entryDeviY << " entryDeviY name " << entryDeviY->name() << entryDeviY->value() << std::endl; deviY = entryDeviY->value(); } else { ALIbool bb = findExtraEntryValueIfExists("devi", devi); if( bb ) { deviX = devi; deviY = devi; } } } if(ALIUtils::debug >= 4) { std::cout << "devi " << devi << " devi x " << deviX << " devi y " << deviY << std::endl; } lightray.setPoint( inters ); lightray.shiftAndDeviateWhileTraversing( this, 'T' ); if (ALIUtils::debug >= 2) { lightray.dumpData("Shifted and Deviated"); } }
void OptOSensor2D::fillExtraEntry | ( | std::vector< ALIstring > & | wordlist | ) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 291 of file OptOSensor2D.cc.
References gather_cfg::cout, ALIUtils::debug, OpticalObject::fillExtraEntry(), ALIUtils::getFloat(), ALIFileIn::getInstance(), and ALIFileIn::getWordsInLine().
{ if(ALIUtils::debug >= 5) std::cout << "OptOSensor2D fillExtraEntry wordlist[1] " << wordlist[1] << std::endl; //---------- check if it is deviation read from file fdevi_from_file = 0; //- std::cout << "WL " << wordlist[1]<< "WL " << wordlist[2]<< "WL " << wordlist[3] << std::endl; if( wordlist[1] == ALIstring("devi") && wordlist[2] == ALIstring("from_file") ) { //---------- Open file ALIstring fnam; if( wordlist.size() >= 4) { fnam = wordlist[3]; } else { //----- Build up file name if it does not exists fnam = "dat/devi-"; fnam += shortName(); fnam += ".dat"; } ALIFileIn& ifdevi = ALIFileIn::getInstance( fnam ); //----- Check that file exists if(ALIUtils::debug >= 4) std::cout << "Opening deviation file: " << fnam << std::endl; /*- if( !ifdevi ) { std::cerr << " !!! Sensor2D Deviation file not found: " << fnam << " of object " << name() << std::endl; exit(1); }*/ deviFromFile = new DeviationsFromFileSensor2D(); fdevi_from_file = 1; if(ALIUtils::debug >= 5 ) std::cout << "deviFromFile " << deviFromFile << std::endl; //----- Read header ALIstring sensor1_name, sensor2_name; ALIdouble sensor_dist; ALIdouble prec_deviX,prec_deviY; std::vector<ALIstring> wl; ifdevi.getWordsInLine( wl ); sensor1_name = wl[0]; sensor2_name = wl[1]; sensor_dist = atof( wl[2].c_str() ); // 'c' means that light is traversing the glass if(sensor1_name[sensor1_name.size()-2] == 'c') { sensor1_name = sensor1_name.substr(0,sensor1_name.size()-1); } if(sensor2_name[sensor2_name.size()-2] == 'c') { sensor2_name = sensor2_name.substr(0,sensor2_name.size()-1); } if(ALIUtils::debug >= 5) std::cout << "sensor1_name " << sensor1_name << " sensor2_name " << sensor2_name << " sensor_dist " << sensor_dist << " unknown " << wl[3] << std::endl; ifdevi.getWordsInLine( wl ); prec_deviX = atof( wl[0].c_str() ); prec_deviY = atof( wl[1].c_str() ); if(ALIUtils::debug >= 5) std::cout << "prec_deviX " << prec_deviX << " prec_deviY " << prec_deviY << std::endl; deviFromFile = new DeviationsFromFileSensor2D(); ALIdouble offsetX, offsetY; if( wl.size() == 5 ) { offsetX = ALIUtils::getFloat( wl[3] ); offsetY = ALIUtils::getFloat( wl[4] ); deviFromFile->setOffset( offsetX, offsetY ); } deviFromFile->readFile( ifdevi ); fdevi_from_file = 1; if(ALIUtils::debug >= 5 ) std::cout << "deviFromFile " << deviFromFile << std::endl; //--- Fill extra entries 'deviX' & 'deviY' to compute derivatives std::vector<ALIstring> wlo; char chartmp[20]; wlo.push_back( wordlist[0] ); wlo.push_back("deviX"); wlo.push_back("0"); // value is set to 0 as it is on the file and the point of intersection is not computed yet gcvt( prec_deviX, 10, chartmp ); wlo.push_back( ALIstring(chartmp) ); wlo.push_back("cal"); std::vector<ALIstring> wl2(wlo); OpticalObject::fillExtraEntry( wlo ); wl2[1] = "deviY"; gcvt( prec_deviY, 10, chartmp ); wl2[3] = ALIstring( chartmp ); OpticalObject::fillExtraEntry( wl2 ); } else { OpticalObject::fillExtraEntry( wordlist ); } }
void OptOSensor2D::makeMeasurement | ( | LightRay & | lightray, |
Measurement & | meas | ||
) | [virtual] |
Reimplemented from OpticalObject.
Definition at line 42 of file OptOSensor2D.cc.
References gather_cfg::cout, ALIUtils::debug, LightRay::direction(), ALIUtils::dump3v(), alignCSCRings::e, LightRay::intersect(), mergeVDriftHistosByStation::name, dbtoconf::parent, LightRay::point(), Measurement::setLightRayDirection(), Measurement::setLightRayPosition(), Measurement::setValueSimulated(), Measurement::value(), Measurement::valueSimulated(), and Measurement::valueType().
{ //---------- check is last and not the only one /* if( vocite - OptOList().begin() == 0 || OptOList().end() - vocite != 1) { std::cerr << " last and not only one Optical Object should be 'sensor2D' (unless you specify (:T)raverse) " << OptOList().end() - vocite << " size " <<OptOList().size() << std::endl; DumpBadOrderOptOs(); }*/ //---------- Get simulated value //---------- Get intersection CLHEP::Hep3Vector ZAxis(0.,0,1.); CLHEP::HepRotation rmt = rmGlob(); ZAxis = rmt * ZAxis; if( ALIUtils::debug >= 4 ) { ALIUtils::dump3v( centreGlob(), " sensor2D centre Glob "); ALIUtils::dump3v( ZAxis, " snsor2D normal "); } //- ALIUtils::dumprm( rmt, "rot global " ); lightray.intersect( ALIPlane(centreGlob(), ZAxis) ); CLHEP::Hep3Vector inters = lightray.point(); ALIdouble* interslc; interslc = convertPointToLocalCoordinates( inters ); ALIdouble interslcx = interslc[0]; ALIdouble interslcy = interslc[1]; meas.setValueSimulated( 0, interslcx ); meas.setValueSimulated( 1, interslcy ); //----- Dump info if (ALIUtils::debug >= 2) { //--- Special for range studies ALIstring chrg = ""; /*t if(Model::Ncmslinkrange >= 1 && Model::Ncmslinkrange <= 8 ) { chrg = "RG"; } else { chrg = ""; } t*/ CLHEP::Hep3Vector measvv( meas.value()[0], meas.value()[1], 0.); measvv = rmt*measvv; ALIUtils::dump3v( measvv, " $$$$$$MEAS IN LOCAL FRAME"); ALIUtils::dump3v( measvv+centreGlob(), " $$$$$$MEAS IN GLOBAL FRAME"); ALIdouble detH = 1000*meas.valueSimulated(0); if(fabs(detH) <= 1.e-9 ) detH = 0.; ALIdouble detV = 1000*meas.valueSimulated(1); if(fabs(detV) <= 1.e-9 ) detV = 0.; std::cout << "REAL value: " << chrg << meas.valueType(0) << ": " << 1000*meas.value()[0] << chrg << " " << meas.valueType(1) << ": " << 1000*meas.value()[1] << " (mm) " << (this)->name() << " DIFF= " << detH-1000*meas.value()[0] << " " << detV-1000*meas.value()[1] << std::endl; std::cout << "SIMU value: " << chrg << " " << meas.valueType(0) << ": " // << setprecision(3) << setw(4) << detH << chrg << " " << meas.valueType(1) << ": " << detV << " (mm) " << (this)->name() << std::endl; /*- std::cout << "SIMU value: " << chrg << " " << meas.valueType(0) << ": " // << setprecision(3) << setw(4) << detH / 0.3125 << chrg << " " << meas.valueType(1) << ": " << detV / 0.3125 << " STRIPS " << (this)->name() << std::endl; */ // << detH // << chrg << " V: " << detV // << " (mm) " << (this)->name() << std::endl; ALIUtils::dump3v( 1000.*(inters - parent()->centreGlob()) , " $$$$$$SIMU inters - parent centre"); ALIUtils::dump3v( 1000.*(inters - centreGlob()) , " $$$$$$SIMU inters - centre"); } //t delete &lightray; // store the lightray position and direction meas.setLightRayPosition( lightray.point() ); meas.setLightRayDirection( lightray.direction() ); delete[] interslc; }
Definition at line 52 of file OptOSensor2D.h.
ALIbool OptOSensor2D::fdevi_from_file [private] |
Definition at line 53 of file OptOSensor2D.h.